Integration of Automated Systems Test Campaign NC-IAS
NASA’s 2022 strategic plan included the goal to catalyze economic growth and drive innovation in the aviation industry, and to address challenges in air transportation and airspace management within the National Airspace System (NAS). The Aeronautics Research Mission Directorate (ARMD) specifically...
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| creator | Baccheschi, Nancy Eng, Daniel Guion, Andrew Nwajagu, Ernest Ramia, Saravanakumaar Scofield, Jan Williams, Ehtan Fettrow, Tyler Monk, Kevin |
| description | NASA’s 2022 strategic plan included the goal to catalyze economic growth and drive innovation in the aviation industry, and to address challenges in air transportation and airspace management within the National Airspace System (NAS). The Aeronautics Research Mission Directorate (ARMD) specifically was tasked with leading aviation innovation to enable safe and sustainable air transportation through revolutionary vehicle advances and efficient flight operations. As a part of meeting these objectives and advancing air mobility concepts, NASA initiated the National Campaign (NC) in the Advanced Air Mobility (AAM) Project within the Airspace Operations and Safety Program (AOSP). The NC was designed to support operational demonstrations with industry as well as the research and development needed to support NASA-led research flight demonstrations.
Within NC, the Integration of Automated Systems (IAS), an NC activity, tested and evaluated flight deck automation and airspace operations management functions needed to enable Urban Air Mobility (UAM) operations. This was accomplished through a partnership with Sikorsky Aircraft (specifically Sikorsky Innovations), a Lockheed Martin company, and DARPA (Defense Advanced Research Projects Agency), by leveraging two automation-enabled helicopters equipped with unique capabilities that enabled NASA to develop and test two-ship conflict encounters to demonstrate flight path management and hazard avoidance technologies. The enabler in this testing was NASA-developed “Middleware” (MW) software (also known as Expandable Variable Autonomy Architecture, or EVAA), which among other things allowed multiple algorithms to be incorporated into one software build that was hosted on the dissimilar-type Sikorsky helicopters.
The IAS test campaign period of performance was from March 2022 through October 2023 and was structured as a phased, or spiral, approach that ultimately led to the first-ever demonstration of two-ship UAM/AAM operations designed to safely choreograph specific conflict encounters and mission scenarios to test the research algorithms for strategic and tactical aircraft deconfliction. Lessons learned are included in the body of the report. Data collected will be used to inform FAA and industry standards groups on the increasingly automated systems needed for future AAM operations. The test encounters developed for these flight tests were proven to be highly predictable, repeatable, and safely exercised flight path pl |
| format | Report |
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Within NC, the Integration of Automated Systems (IAS), an NC activity, tested and evaluated flight deck automation and airspace operations management functions needed to enable Urban Air Mobility (UAM) operations. This was accomplished through a partnership with Sikorsky Aircraft (specifically Sikorsky Innovations), a Lockheed Martin company, and DARPA (Defense Advanced Research Projects Agency), by leveraging two automation-enabled helicopters equipped with unique capabilities that enabled NASA to develop and test two-ship conflict encounters to demonstrate flight path management and hazard avoidance technologies. The enabler in this testing was NASA-developed “Middleware” (MW) software (also known as Expandable Variable Autonomy Architecture, or EVAA), which among other things allowed multiple algorithms to be incorporated into one software build that was hosted on the dissimilar-type Sikorsky helicopters.
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Within NC, the Integration of Automated Systems (IAS), an NC activity, tested and evaluated flight deck automation and airspace operations management functions needed to enable Urban Air Mobility (UAM) operations. This was accomplished through a partnership with Sikorsky Aircraft (specifically Sikorsky Innovations), a Lockheed Martin company, and DARPA (Defense Advanced Research Projects Agency), by leveraging two automation-enabled helicopters equipped with unique capabilities that enabled NASA to develop and test two-ship conflict encounters to demonstrate flight path management and hazard avoidance technologies. The enabler in this testing was NASA-developed “Middleware” (MW) software (also known as Expandable Variable Autonomy Architecture, or EVAA), which among other things allowed multiple algorithms to be incorporated into one software build that was hosted on the dissimilar-type Sikorsky helicopters.
The IAS test campaign period of performance was from March 2022 through October 2023 and was structured as a phased, or spiral, approach that ultimately led to the first-ever demonstration of two-ship UAM/AAM operations designed to safely choreograph specific conflict encounters and mission scenarios to test the research algorithms for strategic and tactical aircraft deconfliction. Lessons learned are included in the body of the report. Data collected will be used to inform FAA and industry standards groups on the increasingly automated systems needed for future AAM operations. The test encounters developed for these flight tests were proven to be highly predictable, repeatable, and safely exercised flight path planning and Detect and Avoid (DAA) algorithms. These same test encounters should be leveraged by future flight test campaigns to verify that operational safety is not compromised as the AAM architecture matures. Next steps include repeating similar encounters using unmanned aircraft carrying DAA sensors in the National Airspace.</description><subject>Air Transportation and Safety</subject><fulltext>true</fulltext><rsrctype>report</rsrctype><creationdate>2024</creationdate><recordtype>report</recordtype><sourceid>CYI</sourceid><recordid>eNrjZDD1zCtJTS9KLMnMz1PIT1NwLC3Jz00sSU1RCK4sLknNLVYISS0uUXBOzC1IzEzPU_Bz1vV0DOZhYE1LzClO5YXS3Awybq4hzh66eYnFifF5JUXF8UYGRiYGBgZGZuaWxgSkAThFKBo</recordid><startdate>20240426</startdate><enddate>20240426</enddate><creator>Baccheschi, Nancy</creator><creator>Eng, Daniel</creator><creator>Guion, Andrew</creator><creator>Nwajagu, Ernest</creator><creator>Ramia, Saravanakumaar</creator><creator>Scofield, Jan</creator><creator>Williams, Ehtan</creator><creator>Fettrow, Tyler</creator><creator>Monk, Kevin</creator><scope>CYE</scope><scope>CYI</scope></search><sort><creationdate>20240426</creationdate><title>Integration of Automated Systems Test Campaign NC-IAS</title><author>Baccheschi, Nancy ; Eng, Daniel ; Guion, Andrew ; Nwajagu, Ernest ; Ramia, Saravanakumaar ; Scofield, Jan ; Williams, Ehtan ; Fettrow, Tyler ; Monk, Kevin</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-nasa_ntrs_202400026793</frbrgroupid><rsrctype>reports</rsrctype><prefilter>reports</prefilter><language>eng</language><creationdate>2024</creationdate><topic>Air Transportation and Safety</topic><toplevel>online_resources</toplevel><creatorcontrib>Baccheschi, Nancy</creatorcontrib><creatorcontrib>Eng, Daniel</creatorcontrib><creatorcontrib>Guion, Andrew</creatorcontrib><creatorcontrib>Nwajagu, Ernest</creatorcontrib><creatorcontrib>Ramia, Saravanakumaar</creatorcontrib><creatorcontrib>Scofield, Jan</creatorcontrib><creatorcontrib>Williams, Ehtan</creatorcontrib><creatorcontrib>Fettrow, Tyler</creatorcontrib><creatorcontrib>Monk, Kevin</creatorcontrib><collection>NASA Scientific and Technical Information</collection><collection>NASA Technical Reports Server</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Baccheschi, Nancy</au><au>Eng, Daniel</au><au>Guion, Andrew</au><au>Nwajagu, Ernest</au><au>Ramia, Saravanakumaar</au><au>Scofield, Jan</au><au>Williams, Ehtan</au><au>Fettrow, Tyler</au><au>Monk, Kevin</au><format>book</format><genre>unknown</genre><ristype>RPRT</ristype><btitle>Integration of Automated Systems Test Campaign NC-IAS</btitle><date>2024-04-26</date><risdate>2024</risdate><abstract>NASA’s 2022 strategic plan included the goal to catalyze economic growth and drive innovation in the aviation industry, and to address challenges in air transportation and airspace management within the National Airspace System (NAS). The Aeronautics Research Mission Directorate (ARMD) specifically was tasked with leading aviation innovation to enable safe and sustainable air transportation through revolutionary vehicle advances and efficient flight operations. As a part of meeting these objectives and advancing air mobility concepts, NASA initiated the National Campaign (NC) in the Advanced Air Mobility (AAM) Project within the Airspace Operations and Safety Program (AOSP). The NC was designed to support operational demonstrations with industry as well as the research and development needed to support NASA-led research flight demonstrations.
Within NC, the Integration of Automated Systems (IAS), an NC activity, tested and evaluated flight deck automation and airspace operations management functions needed to enable Urban Air Mobility (UAM) operations. This was accomplished through a partnership with Sikorsky Aircraft (specifically Sikorsky Innovations), a Lockheed Martin company, and DARPA (Defense Advanced Research Projects Agency), by leveraging two automation-enabled helicopters equipped with unique capabilities that enabled NASA to develop and test two-ship conflict encounters to demonstrate flight path management and hazard avoidance technologies. The enabler in this testing was NASA-developed “Middleware” (MW) software (also known as Expandable Variable Autonomy Architecture, or EVAA), which among other things allowed multiple algorithms to be incorporated into one software build that was hosted on the dissimilar-type Sikorsky helicopters.
The IAS test campaign period of performance was from March 2022 through October 2023 and was structured as a phased, or spiral, approach that ultimately led to the first-ever demonstration of two-ship UAM/AAM operations designed to safely choreograph specific conflict encounters and mission scenarios to test the research algorithms for strategic and tactical aircraft deconfliction. Lessons learned are included in the body of the report. Data collected will be used to inform FAA and industry standards groups on the increasingly automated systems needed for future AAM operations. The test encounters developed for these flight tests were proven to be highly predictable, repeatable, and safely exercised flight path planning and Detect and Avoid (DAA) algorithms. These same test encounters should be leveraged by future flight test campaigns to verify that operational safety is not compromised as the AAM architecture matures. Next steps include repeating similar encounters using unmanned aircraft carrying DAA sensors in the National Airspace.</abstract><cop>Armstrong Flight Research Center</cop><oa>free_for_read</oa></addata></record> |
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| subjects | Air Transportation and Safety |
| title | Integration of Automated Systems Test Campaign NC-IAS |
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